An investigational treatment for celiac disease effectively controls the condition—at least in an animal model—in a ...

Even though it's been touted by celebrities like Jennifer Aniston as "the future" of wellness, a new study says NAD+ is being ...

Rising 3,776 meters above sea level, this near-perfect volcanic cone isn’t just a symbol of natural beauty—it’s a bucket list destination for climbers from around the world. During the ...

This involves sitting in a dark lab in front of the device, where lasers are then shone into the retina. From there, they identify cone cells, separating them into S, M, or L. Then, they select all of ...

The types of cell from which tumours originate for a given tissue often differ between mice and humans: for example, human retinoblastomas originate from retinal cone cells 9. If human cancer ...

Named by Fong, “olo” is a color achieved by stimulating M cone cells in the eye, resulting in a hue that’s much more saturated than any natural color. Get SFGATE's top stories sent to your ...

The Oz system can target and stimulate up to 1,000 individual cone cells in the eye at once. This allows the user to see the color olo, along with shapes, lines, motion, and even recognizable images, ...

The scientists developed a prototype ‘Oz’ using advanced retinal imaging and stimulation technology to target specific cone cells in the retina with a laser light. They employed a technique ...

The investigators used adaptive optics scanning laser ophthalmoscopy (AOSLO) in the current study because it enables high-resolution retinal imaging to measure cone cell density in vivo. In this study ...

A top down view of the Oz system. [Courtesy of James Fong and Congli Wang] The human eye perceives colour via three types of photoreceptor or “cone cells” in the retina. S cones pick up ...

Oz stimulates M cone cells exclusively, creating a new color signal, "olo," beyond the natural human color gamut. The study demonstrates partial expansion of colorspace by targeting M cones, bypassing ...

The retina, located at the back of the eye, contains millions of light-sensitive cells called photoreceptors. Among these, cone cells are responsible for color vision. Typically, the human retina has ...